АNALYSIS OF WAYS TO USE ARTIFICIAL INTELLIGENCE TO IMPROVE MONITORING OF SECURE ITINFRASTRUCTURE

Abstract

The article is dedicated to the analysis of various ways of applying artificial intelligence
for monitoring the protected IT infrastructure. The modern world is undergoing rapid technological
transformation, where information technologies play a key role in the functioning of almost all aspects of
our lives. Information technology infrastructure becomes not only critically important for supporting
businesses and organizations but also determines the convenience and efficiency of using and developing
digital services in the modern world. Ensuring the continuity and optimal functioning of IT infrastructure
is of paramount importance for businesses, organizations, and society as a whole. In this regard, the
application of artificial intelligence for monitoring and supporting IT infrastructure proves to be a powerful
tool for predicting, detecting, and resolving issues before they strengthen and affect efficiency. Today’s IT
infrastructure is becoming increasingly complex and voluminous, requiring constant monitoring to timely
respond to possible failures or malfunctions that may lead to disruptions in work, financial losses, or even
threats to data security. In this context, the application of artificial intelligence becomes crucial as it can
provide fast, accurate, and forecasted solutions based on the analysis of a vast amount of data and previous
patterns of failures.
Keywords: vulnerabilities, IT infrastructure monitoring, cybersecurity, artificial intelligence

References
1. Cisco Secure Network Analytics (formerly Stealthwatch) At-a-Glance. URL:
https://www.cisco.com/c/en/us/products/collateral/security/stealthwatch/ secure-network-analyticsaag.html
2. Darktrace DETECT | Autonomous Threat Detection. Darktrace | The Essential AI
Cybersecurity Platform. URL: https://www.darktrace.com/products/detect
3. Vectra AI | Cybersecurity AI That Stops Attacks Others Canât. Vectra AI | Cybersecurity
AI That Stops Attacks Others CanâTMt. URL: https://www.vectra.ai
4. Uraikul V., Chan C. W., Tontiwachwuthikul P. Artificial intelligence for monitoring and
supervisory control of process systems. Engineering Applications of Artificial Intelligence. 2007.
Vol. 20, no. 2. P. 115–131. URL: https://doi.org/10.1016/j.engappai.2006.07.002
5. Using a multi-agent system and artificial intelligence for monitoring and improving the
cloud performance and security / D. Grzonka et al. Future Generation Computer Systems. 2018. Vol.
86. P. 1106–1117. URL: https://doi.org/10.1016/j.future.2017.05.046
6. US9886955B1 - Artificial intelligence for infrastructure management - Google Patents.
Google Patents. URL: https://patents.google.com/patent/US9886955B1/en
7. Reddy Yeruva A. Monitoring Data Center Site Infrastructure Using AIOPS Architecture.
Eduvest – Journal of Universal Studies. 2023. Vol. 3, no. 1. P. 265–277. URL:
https://doi.org/10.36418/eduvest.v3i1.732
8. Dong W. AIOps Architecture in Data Center Site Infrastructure Monitoring. Computational
Intelligence and Neuroscience. 2022. Vol. 2022. P. 1–12. URL:
https://doi.org/10.1155/2022/1988990
9. McMillan L., Varga L. A review of the use of artificial intelligence methods in infrastructure
systems. Engineering Applications of Artificial Intelligence. 2022. Vol. 116. P. 105472. URL:
https://doi.org/10.1016/j.engappai.2022.105472
10. Катков Ю. І., Березовська Ю. В., Заднепрянець О. Ю. Дослідження способів
застосування штучного інтелекту для моніторингу ІТ-інфраструктури. Актуальні проблеми
кібербезпеки: матеріали Всеукр. науково-практ. конф., м. Київ, 27 жовтня 2023. Київ, 2023.
С. 121–122.
11. Bazzell, M. (2021). Open Source Intelligence Techniques: Resources for Searching and
Analyzing Online Information (9th ed.). IntelTechniques.
12. Rid, T. (2020). Active Measures: The Secret History of Disinformation and Political
Warfare. Farrar, Straus and Giroux.
13. Hulnick A. S. What's wrong with the Intelligence Cycle. Intelligence and National Security.
2006. Vol. 21, no. 6. P. 959–979. URL: https://doi.org/10.1080/02684520601046291
14. Salganik, M. J. (2018). Bit by Bit: Social Research in the Digital Age. Princeton University
Press.
15. Monroe B. L., Colaresi M. P., Quinn K. M. Fightin' Words: Lexical Feature Selection and
Evaluation for Identifying the Content of Political Conflict. Political Analysis. 2008. Vol. 16, no. 4.
P. 372–403. URL: https://doi.org/10.1093/pan/mpn018
16. NATO. (2022). NATO Open Source Intelligence Handbook. NATO Intelligence Division.
URL: https://www.nato.int
17. Kruschwitz, U., & Hull, R. (2017). Searching the Enterprise. Foundations and Trends® in
Information Retrieval, 11(1), 1–142. URL: https://doi.org/10.1561/1500000050.
18. Lazer, D., Pentland, A. S., Adamic, L., Aral, S., Barabási, A.-L., Brewer, D., ... & Van
Alstyne, M. (2009). Life in the network: The coming age of computational social science. Science,
323(5915), 721–723. URL: https://doi.org/10.1126/science.1167742
19. Europol. (2023). Internet Organised Crime Threat Assessment (IOCTA). URL:
https://www.europol.europa.eu
20. Graphika. (2023). Network Analysis Reports. URL: https://www.graphika.com
21. OSINT Framework. URL: https://osintframework.com/
22. Функціональна стійкість інформаційних мереж при наявності обмеженої апріорної
інформації про надійність / Ю. Березовська та ін. Зв’язок. 2020. № 6(148). С. 42–46.
23. Березовська Ю. Інформаційні системи безперервного використання з часовим
резервуванням. Сучасні досягнення компанії Hewlett Packard Enterprise в галузі IT та нові
можливості їх вивчення і застосування : тези доп. Міжнар. науково-практ. конф., м. Київ, 16
груд. 2020 р. Київ, 2020. С. 6–8.